Apollo 15 Refereed Journals

1. New results and implications for lunar crustal iron distribution using sensor data fusion techniques
   Clark, P & McFadden, L, JGR, 105, 4291 (2000)
2. Two-Stage Exposure of the Fayetteville Meteorite Based on 129I
   Nishiizumi, K, Arnold, J & Sharma, P, Metic, 28, 412 (1993)
3. Lunar and Planetary Science Conference, 16th, Houston, TX, March 11-15, 1985, Proceedings. Part 2
   Ryder, G, JGR 91 (1986)
4. Possible lunar source areas of meteorite ALHA81005: Geochemical remote sensing information
   Pieters, C et al., GeoRL, 10, 813 (1983)
5. Contour maps of lunar remanent magnetic fields.
   Hood, L, Russell, C & Coleman, P, JGR, 86, 1055 (1981)
6. Inelastic neutron scatter iron concentrations of the moon from orbital gamma ray data.
   Davis, P & Bielefeld, M, JGR, 86, 11919 (1981)
7. Planetary Gamma-Ray Spectroscopy: the Effects of Hydrogen and the Macroscopic Thermal-Neutron Absorption Cross-Section on the Gamma-Ray Spectrum.
   Lapides, J, PhD Thesis, 68 (1981)
8. The distance and spectrum of the Apollo gamma-ray burst
   Gilman, D et al., ApJ, 236, 951 (1980)
9. Iron and titanium distribution on the moon from orbital gamma ray spectrometry with implications for crustal evolutionary models.
   Davis, P, JGR, 85, 3209 (1980)
10. Lunar Magnetic Anomalies and Surface Optical Properties
    Hood, L & Schubert, G, Sci, 208, 49 (1980)
11. The galactic gamma-ray flux in the 0.06 - 5 MeV range.
    Gilman, D et al., ApJ, 229, 753 (1979)
12. The distribution of titanium on the lunar surface
    Metzger, A & Parker, R, E&PSL, 45, 155 (1979)
13. Magnetometer data errors and lunar induction studies
    Daily, W & Dyal, P, JGR, 84, 3313 (1979)
14. Lunar magnetic anomalies detected by the Apollo substatellite magnetometers
    Hood, L et al., PEPI, 20, 291 (1979)
15. Thorium concentrations in the lunar surface. II: Deconvolution modeling and its application to the regions of Aristarchus and Mare Smythii.
    Haines, E, Etchegaray-Ramirez, M & Metzger, A, LPSC, 9, 2985 (1978)
16. Reanalysis of the Apollo cosmic gamma-ray spectrum in the 0.3 to 10 MeV energy region.
    Trombka, J et al., ApJ, 212, 925 (1977)
17. Orbital gamma-ray data and large-scale lunar problems
    Hubbard, N & Woloszyn, D, PEPI, 15, 287 (1977)
18. Depth-sensitive analysis of fluorine on lunar sample surfaces and in carbonaceous chondrites by a nuclear resonant reaction technique
    Goldberg, R, PhD Thesis, 3 (1976)
19. On emission lines in the cosmic gamma-ray background.
    Clayton, D & Ward, R, ApJ, 198, 241 (1975)
20. Preliminary design and performance of an advanced gamma-ray spectrometer for future orbiter missions
    Metzger, A et al., LPSC, 3, 2769 (1975)
21. Observation of a Cosmic Gamma-Ray Burst on Apollo 16. II. X-Ray Time Profile and Source Location
    Trombka, J et al., ApJL, 194, L27 (1974)
22. Lunar elemental analysis obtained from the Apollo gamma ray and X-ray remote sensing experiment.
    Trombka, J et al., Moon, 11, 393 (1974)
23. The Apollo gamma-ray spectrometer
    Harrington, T et al., NucIM, 118, 401 (1974)
24. Magnetism and the interior of the moon.
    Dyal, P, Parkin, C & Daily, W, RvGSP, 12, 568 (1974)
25. Investigations of diffuse cosmic gamma radiation in the range 28 keV-4.1 MeV
    Mazets, E et al., ZhPmR, 20, 77 (1974)
26. The Cosmic y-RAY Spectrum Between 0.3 and 25 MeV Measured on Apollo 15
    Trombka, J et al., ApJ, 181, 737 (1973)
27. Some correlations between measurements by the Apollo gamma-ray spectrometer and other lunar observations
    Trombka, J et al., LPSC, 4, 2847 (1973)
28. Geochemical exploration of the moon and planets.
    Adler, I & Trombka, J, PCS 3 (1970)